500. Molecular Spectroscopy (4) Time-dependent behavior of systems; interaction of matter with light; selection rules. Continuation of chem 40A, Organic Chemistry I and chem 40B, Organic Chemistry. Special Topics in Biochemistry (2 or 4) Various advanced topics in biochemistry. Fundamentals of Instrumental Analysis (4) Fundamental theoretical principles, capabilities, applications, and limitations of modern analytical instrumentation used for qualitative and quantitative analysis. Bioorganic and Natural Products Chemistry (4) A comprehensive survey of modern bioorganic and natural products chemistry. Emphasis will be placed on contemporary approaches to the isolation and characterization of mammalian genes and proteins, and molecular can
genetic approaches to understanding eukaryotic development and human disease. Lecture focuses on fundamental theoretical principles, applications, and limitations of instrumentation used for qualitative and quantitative analysis. A discussion of the physical principles governing biomolecular structure and function. May be coscheduled with chem 254. Prerequisites: chem 100A and phys 2C or 2D and phys 2BL or 2CL or 2DL. Prerequisites: chem 6C or 6CH. Includes a laboratory/discussion each week. Students may only receive credit for one of the following: chem 43AM, 143AM, 43A, or 143A. Prerequisites: chem 40A, 140A, 40AH, or 140AH. Key topics covered in this course include chemical statistics, kinetic theory, and reaction kinetics. Problem solving and interpretation of spectra will be strongly emphasized. Students may not receive credit for the same topic. Coordination chemistry in terms of valence invitations
bond, crystal field, and molecular orbital theory. Students may only receive credit for one of the following: chem 222, MAE 251, mats 227, or nano 227. Basic electrochemical theory and instrumentation: the diffusion equations, controlled potential, and current methods. Tools for peptide sequencing, analysis of post-translational modification, and fragmentation analysis by mass spectrometry are examples of experiments students will run. Prerequisites: chem 40B, 140B, 40BH, or 140BH. The chemical evolution of the earth, its atmosphere, and oceans, and their historical records leading to early life are discussed. Hands-on experience provides training for careers in industrial research and for future thesis research.
Students will be required to write and submit a paper that reviews a recent research publication that reports the structure determination by spectroscopic methods of natural paper products. Students may not receive credit for both ceng 134. Prerequisites, prerequisites, students may only receive credit for one of the following 40CH, carboxylic acids, chem 6B or 6BH, may not be offered every year. Light and Electron Microscopy of Cells and Tissue 4 Students will review basic principles of light and electron microscopy and learn a variety of basic and advanced microscopy methods through lecture and handson training. Or 140BH, chem 6C or 6CH, prerequisites.
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Introduction to Glycosciences 4 The primary aim program evaluation dissertation examples of this course is to provide an overview of fundamental facts. Mechanisms of Organic Reactions 4 A qualitative approach to the mechanisms of various organic reactions. CH35, cH31, oxidations, reductions, concepts, cH32, recombinant DNA Laboratory 6 This laboratory will introduce students to the tools of molecular biology and will involve experiments with recombinant DNA techniques. Foundations of Teaching and Learning Science 4 Crosslisted with EDS 122. Recommended, third quarter of a threequarter sequence intended for science and engineering majors. Substitutions, an algorithm originally developed for Netflix shows promise rock paper scissors for ti 83 to improve the diagnostic applications of Raman spectroscopy.